RU2821629C1 - Well completion method in conditions of abnormally high formation pressure - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to a method of well completion in conditions of abnormally high formation pressure (AHFP). Method includes drilling of well with deepening of bottomhole in repression mode. Method also involves stopping drilling and casing the well with a casing string lowered to the bottom. It also includes cementing the annular space of the casing string from its shoe to the required mark. Also, the method involves opening of the productive formation with AHFP from the cemented casing string by perforation channels. Completion of the well is carried out with reduced effect of AHFP of the productive formation. Deepening of the well bottom is stopped above the productive formation in the rocks overlying it. Interval of overlying rocks from the productive formation to the bottomhole is taken based on the possibility of screening the well from the effect of the productive formation. Then a casing string is lowered into the well to the bottom, the shoe of which is installed in the rocks overlapping the productive formation, and in this position the annular space is cemented. Further, channels are drilled from the cemented casing through the interval of overlapping rocks in differential pressure mode and they are used to drilling-in the productive formation. Shoe of the lowered casing string is equipped with holes with magnetic marks positioning them and drilled plugs.

EFFECT: reduction of negative effect of AHFP of productive formation on completion of well, reduction of accident rate of operations, colmatation of formations, improvement of quality of well casing and efficiency of well production as a whole.

1 cl, 3 dwg

Description

The invention relates to the fuel and energy complex, in particular to methods for completing a well in difficult conditions and can be used in the development of oil and gas deposits with high pressure pressure.

Completing the well, namely drilling out the lower part of the section, securing the section with a casing (liner) with cementing the annulus and subsequent opening of the productive formation is a critical stage of construction, the success of which determines the longevity and further normal operation of the well, and the state of field development as a whole. It is known that drilling of a productive highly permeable formation with high-pressure pressure is accompanied by gas and oil shows (GOS), absorption of drilling fluid, sticking of the drilling tool, damage (contamination, clogging) of the formation and other complications. When cementing such a complicated well, a productive formation initially opened by drilling with high pressure is even more dangerous - at best, the quality of cementing of the casing string decreases, the tightness of the annulus is lost, annular manifestations, cross-flows and annular pressures (ICP) appear [Babayan E.V. Drilling technologies. - 2nd ed., add. - Krasnodar: Council. Kuban, 2009. - P. 390-401, 633-665].

The closest to the invention in terms of technical essence and the achieved result is a method for completing a well under conditions of abnormally high reservoir pressure (AHRP), including drilling a well with bottomhole deepening in the mode of overpressure on the formation, opening rocks of the lower part of the section, including a productive formation with AHRP, stopping drilling , fastening a well lowered below the productive formation to the bottom with a casing string, cementing the annulus of the casing string from its shoe to the desired level, secondary opening from the cemented casing string of the productive formation with cumulative perforation channels. The method is based on joint drilling (primary opening) and joint strengthening of the productive formation with the overlying rocks of the lower part of the section. The productive formation itself with high-pressure pressure is secured with a cemented casing string and then opened a second time with cumulative perforation channels about 1 m long. All well completion work, starting from the initial opening of the productive formation, running and cementing the casing to the end of the WPC (waiting for cement hardening) and secondary opening of the productive formation, cumulative perforation is carried out under conditions of the negative influence of high pressure pressure. The high pressure of the productive formation has a particularly strong influence on the cementing of the casing. When cementing the casing, the injection of process agents (buffer fluid, cement slurry, displacement fluid) is carried out at excess pressure at the wellhead using a throttle. This allows you to regulate the pressure in the well in the event of emergency situations associated with high-pressure pressure - gas and oil shows (GOS), absorption of process agents and hydraulic fracturing (hydraulic fracturing). Under these conditions, high-quality well casing is unattainable. If necessary, the created initial excess pressure at the wellhead choke is compensated by a corresponding decrease in the equivalent circulation density (ECD), namely the “hydrostatic” density and/or rheological parameters of the injected solutions without changing the specified (responsible for the favorable turbulent regime in the annulus) pump performance. Then, when casing a well during the circulation of process agents, it becomes possible, within certain limits, to restore the required pressure in the annulus by opening and closing the wellhead choke, which reduces the accident rate of work. However, at the same time, the negative influence of a productive formation with high pressure pressure on the most important cementing parameter is still preserved - the tightness of the well support, which is broken at the WCC stage due to a decrease in pressure in the well and the uncontrolled influx of formation fluid at the time of formation (thickening and setting of the solution) of cement stone in annulus [See. Tsibulsky M.A. etc. Cementing wells under controlled pressure. Magazine. - Drilling and oil. - March. 2019, prototype].

The disadvantage of this method is the negative impact of a productive formation penetrated by a well with high pressure on all processes of its completion, which leads to complications both when drilling the lower part of the section and cementing the casing. At the same time, due to the influx of formation fluid at the WOC stage, the tightness of the annular space is irreparably lost, especially in gas wells, which leads to annular manifestations, annular pressures (ICP), cross-flows and other complications.

The objective of the invention is to expand the functionality and scope of use of the method, for example, in high-pressure pressure conditions, to increase its efficiency and reliability in difficult geological and technological conditions.

The technical result of the invention is to reduce the negative impact of high pressure pressure of the productive formation on the completion (drilling and casing) of a well, reduce the accident rate of work, clogging of formations, improve the quality of well casing and the efficiency of well production in general.

To achieve this technical result in the method of completing a well under conditions of abnormally high reservoir pressure (AHRP), including drilling a well with deepening of the bottomhole in the mode of overpressure on the formation, stopping drilling, securing the well with a casing string lowered to the bottom, cementing the annulus of the casing string from its shoe to the desired level, opening the productive formation from a cemented casing with high-pressure pressure perforation channels, while according to the invention, well completion is carried out with a reduced influence of high-pressure pressure of the productive formation, for which purpose the deepening of the well bottom is stopped above the productive formation in the overlying rocks, while the interval of the overlying rocks from productive formation to the bottom is taken based on the possibility of shielding the well from the influence of the productive formation, then a casing is lowered into the well to the bottom, the shoe of which is installed in the rocks overlying the productive formation and in this position, without complications associated with the influence of the productive formation, the annulus is cemented, then From a cemented casing through an interval of overlying rocks, elongated perforation channels are drilled in depression mode onto the formation and they initially open up the productive formation, while the shoe of the lowered casing is equipped with holes with magnetic marks positioning them and easily drilled plugs to simplify drilling of elongated perforation channels.

Unlike the known method, the proposed method is based on the use of a natural factor, namely the existing seal-bridge (screen) of dense low-permeability rocks, usually overlying a productive formation with high pressure. The location of the bottom of a drilled well before opening the productive formation in the overlying dense low-permeability rocks helps to reduce complications, both during deepening and casing such a well. The opening (primary) of the most productive formation after cementing in more favorable casing conditions is also carried out without complications in the depression mode with elongated perforation channels. In this case, well-known devices are used, for example, an arrangement for radial drilling and a coiled tubing installation (see, for example, Antoniadi D.G., Fursin S.G. Rationale for the use of a waterjet probe perforator in innovative coiled tubing technologies. Journal "Coiled Tubing Time. Hydraulic Fracturing Time." No. 4(062). 2017. - pp. 42-50. The column shoe is equipped with marked holes and easily drilled plugs, which simplifies the drilling of extended perforation channels (due to convenient positioning in and out of the column, including reusable devices). The interval (thickness) of the overlying rocks from the productive formation to the bottom of the well is about 10 m, which in most cases is sufficient to obtain the necessary hydrodynamic screen between them without complicating the method.

The proposed method is illustrated using the example of a vertical well with the drawings shown in Fig. 1-3.

In fig. Figure 1 shows a sectional diagram of well completion under high pressure pressure conditions, the moment of stopping the deepening of the bottom hole in the rocks overlying the productive formation; in fig. 2 - the same, primary opening from the casing using elongated perforation channels of the productive formation with high pressure pressure; in fig. 3 shows view A in Fig. 2, enlarged scale.

The following designations are used in the above drawings. Well 1; productive formation with high pressure pressure 2; bottom hole 3 wells; overlying the productive formation of rock 4; interval 5 overburden rocks; casing 6; casing shoe 7; shoe holes 8 with positioning magnetic marks 9 and easily drilled plugs (not shown); annulus 10; grouting solution 11; extended perforation channels 12.

The proposed method is carried out as follows.

When completing well 1 under high pressure pressure conditions and the need to open the productive formation 2, the bottom hole 3 in the lower part of the section is deepened in the usual drilling mode, namely formation compression (Fig. 1). To reduce the influence of high-pressure pressure on the completion processes of well 1 (drilling and casing), the deepening of the bottom 3 is stopped above the productive formation 2 in the overlying and screening low-permeability rocks 4. An interval of 5 overlying rocks 4 from the productive formation 2 to the stopped drilling of the bottom 3 is taken (according to seismic data , geological and technological research - GTI) of about 10 m for the possibility of reliable shielding of well 1 from the influence of high pressure pressure (productive formation 2). Then, a casing 6 with a shoe 7, which contains holes 8 with positioning magnetic marks 9 and easily drillable cement plugs (not shown), is lowered into well 1 (Fig. 2, 3) to the bottom 3. When lowering the casing string 6, its shoe 7 is installed in the overlying rocks 4 and in this position, without complications associated with the influence of high-pressure pressure of the productive formation 2, the annulus 10 is cemented with the cementing slurry 11 raised from the bottom 3 to the desired level, for example, the wellhead (not shown ). After the WOC, elongated perforation channels 12 are drilled from the cemented casing 6 through an interval of 5 overlapping rocks 4 and they initially open the productive formation 2, possibly with branching (to expand the drainage zone) and in favorable conditions. Drilling of elongated perforation channels 12 is carried out in depression mode on the formation (using a coiled tubing unit) and without disturbing the cement stone in the annulus 10 using known devices. To simplify the exit from the casing string 6 of the assembly, for example for radial drilling, holes 8 are made in the shoe 7 with magnetic marks 9 positioning them and easily drilled plugs. If necessary, short liners (not shown) are lowered into the elongated perforation channels 12 to the productive formation 2 to secure the overlying rocks 4.

The use of the proposed method makes it possible to reduce the influence of high pressure pressure on the completion processes (drilling and casing) of the well due to its screening with low-permeability overburden rocks and the use of elongated perforation channels to open the productive formation. This expands the scope of use of the method, reduces the accident rate of work, especially in gas wells, improves the quality of well casing, facilitates the opening of the productive formation in favorable conditions and efficient well production in general. In this case, instead of a horizontal end in the productive formation (horizontal well option), many elongated perforation channels can be used, saving on the production casing (liner).

Claims (1)

A method for completing a well under conditions of abnormally high reservoir pressure (AHRP), including drilling a well with bottomhole deepening in formation overbalance mode, stopping drilling, securing the well with a casing string lowered to the bottom, cementing the annulus of the casing string from its shoe to the desired level, opening from cemented casing string of the productive formation with high pressure perforation channels, characterized in that the well completion is carried out with a reduced influence of high pressure pressure of the productive formation, for which the deepening of the bottom of the well is stopped above the productive formation in the overlying rocks, while the interval of the overlying rocks from the productive formation to the bottom is taken based on from the possibility of shielding the well from the influence of the productive formation, then a casing string is lowered into the well to the bottom, the shoe of which is installed in the rocks overlying the productive formation, and in this position the annulus is cemented, then from the cemented casing through the interval of the overlying rocks they drill in depression mode formation channels and they initially open the productive formation, while the shoe of the lowered casing is equipped with holes with magnetic marks positioning them and drillable plugs.